// Copyright 2017 PingCAP, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// See the License for the specific language governing permissions and
// limitations under the License.

package ast_test

import (
	"fmt"
	"testing"

	"github.com/pingcap/tidb/pkg/parser"
	. "github.com/pingcap/tidb/pkg/parser/ast"
	"github.com/pingcap/tidb/pkg/parser/format"
	"github.com/stretchr/testify/require"
)

func TestDMLVisitorCover(t *testing.T) {
	ce := &checkExpr{}

	tableRefsClause := &TableRefsClause{TableRefs: &Join{Left: &TableSource{Source: &TableName{}}, On: &OnCondition{Expr: ce}}}

	stmts := []struct {
		node             Node
		expectedEnterCnt int
		expectedLeaveCnt int
	}{
		{&DeleteStmt{TableRefs: tableRefsClause, Tables: &DeleteTableList{}, Where: ce,
			Order: &OrderByClause{}, Limit: &Limit{Count: ce, Offset: ce}}, 4, 4},
		{&ShowStmt{Table: &TableName{}, Column: &ColumnName{}, Pattern: &PatternLikeOrIlikeExpr{Expr: ce, Pattern: ce}, Where: ce}, 3, 3},
		{&LoadDataStmt{Table: &TableName{}, Columns: []*ColumnName{{}}, FieldsInfo: &FieldsClause{}, LinesInfo: &LinesClause{}}, 0, 0},
		{&ImportIntoStmt{Table: &TableName{}}, 0, 0},
		{&Assignment{Column: &ColumnName{}, Expr: ce}, 1, 1},
		{&ByItem{Expr: ce}, 1, 1},
		{&GroupByClause{Items: []*ByItem{{Expr: ce}, {Expr: ce}}}, 2, 2},
		{&HavingClause{Expr: ce}, 1, 1},
		{&Join{Left: &TableSource{Source: &TableName{}}}, 0, 0},
		{&Limit{Count: ce, Offset: ce}, 2, 2},
		{&OnCondition{Expr: ce}, 1, 1},
		{&OrderByClause{Items: []*ByItem{{Expr: ce}, {Expr: ce}}}, 2, 2},
		{&SelectField{Expr: ce, WildCard: &WildCardField{}}, 1, 1},
		{&TableName{}, 0, 0},
		{tableRefsClause, 1, 1},
		{&TableSource{Source: &TableName{}}, 0, 0},
		{&WildCardField{}, 0, 0},

		// TODO: cover childrens
		{&InsertStmt{Table: tableRefsClause}, 1, 1},
		{&SetOprStmt{}, 0, 0},
		{&UpdateStmt{TableRefs: tableRefsClause}, 1, 1},
		{&SelectStmt{}, 0, 0},
		{&FieldList{}, 0, 0},
		{&SetOprSelectList{}, 0, 0},
		{&WindowSpec{}, 0, 0},
		{&PartitionByClause{}, 0, 0},
		{&FrameClause{}, 0, 0},
		{&FrameBound{}, 0, 0},
	}

	for _, v := range stmts {
		ce.reset()
		v.node.Accept(checkVisitor{})
		require.Equal(t, v.expectedEnterCnt, ce.enterCnt)
		require.Equal(t, v.expectedLeaveCnt, ce.leaveCnt)
		v.node.Accept(visitor1{})
	}
}

func TestTableNameRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"dbb.`tbb1`", "`dbb`.`tbb1`"},
		{"`tbb2`", "`tbb2`"},
		{"tbb3", "`tbb3`"},
		{"dbb.`hello-world`", "`dbb`.`hello-world`"},
		{"`dbb`.`hello-world`", "`dbb`.`hello-world`"},
		{"`dbb.HelloWorld`", "`dbb.HelloWorld`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*CreateTableStmt).Table
	}
	runNodeRestoreTest(t, testCases, "CREATE TABLE %s (id VARCHAR(128) NOT NULL);", extractNodeFunc)
}

func TestTableNameIndexHintsRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"t use index (hello)", "`t` USE INDEX (`hello`)"},
		{"t use index (hello, world)", "`t` USE INDEX (`hello`, `world`)"},
		{"t use index ()", "`t` USE INDEX ()"},
		{"t use key ()", "`t` USE INDEX ()"},
		{"t ignore key ()", "`t` IGNORE INDEX ()"},
		{"t force key ()", "`t` FORCE INDEX ()"},
		{"t use index for order by (idx1)", "`t` USE INDEX FOR ORDER BY (`idx1`)"},

		{"t use index (hello, world, yes) force key (good)", "`t` USE INDEX (`hello`, `world`, `yes`) FORCE INDEX (`good`)"},
		{"t use index (hello, world, yes) use index for order by (good)", "`t` USE INDEX (`hello`, `world`, `yes`) USE INDEX FOR ORDER BY (`good`)"},
		{"t ignore key (hello, world, yes) force key (good)", "`t` IGNORE INDEX (`hello`, `world`, `yes`) FORCE INDEX (`good`)"},

		{"t use index for group by (idx1) use index for order by (idx2)", "`t` USE INDEX FOR GROUP BY (`idx1`) USE INDEX FOR ORDER BY (`idx2`)"},
		{"t use index for group by (idx1) ignore key for order by (idx2)", "`t` USE INDEX FOR GROUP BY (`idx1`) IGNORE INDEX FOR ORDER BY (`idx2`)"},
		{"t use index for group by (idx1) ignore key for group by (idx2)", "`t` USE INDEX FOR GROUP BY (`idx1`) IGNORE INDEX FOR GROUP BY (`idx2`)"},
		{"t use index for order by (idx1) ignore key for group by (idx2)", "`t` USE INDEX FOR ORDER BY (`idx1`) IGNORE INDEX FOR GROUP BY (`idx2`)"},

		{"t use index for order by (idx1) ignore key for group by (idx2) use index (idx3)", "`t` USE INDEX FOR ORDER BY (`idx1`) IGNORE INDEX FOR GROUP BY (`idx2`) USE INDEX (`idx3`)"},
		{"t use index for order by (idx1) ignore key for group by (idx2) use index (idx3)", "`t` USE INDEX FOR ORDER BY (`idx1`) IGNORE INDEX FOR GROUP BY (`idx2`) USE INDEX (`idx3`)"},

		{"t use index (`foo``bar`) force index (`baz``1`, `xyz`)", "`t` USE INDEX (`foo``bar`) FORCE INDEX (`baz``1`, `xyz`)"},
		{"t force index (`foo``bar`) ignore index (`baz``1`, xyz)", "`t` FORCE INDEX (`foo``bar`) IGNORE INDEX (`baz``1`, `xyz`)"},
		{"t ignore index (`foo``bar`) force key (`baz``1`, xyz)", "`t` IGNORE INDEX (`foo``bar`) FORCE INDEX (`baz``1`, `xyz`)"},
		{"t ignore index (`foo``bar`) ignore key for group by (`baz``1`, xyz)", "`t` IGNORE INDEX (`foo``bar`) IGNORE INDEX FOR GROUP BY (`baz``1`, `xyz`)"},
		{"t ignore index (`foo``bar`) ignore key for order by (`baz``1`, xyz)", "`t` IGNORE INDEX (`foo``bar`) IGNORE INDEX FOR ORDER BY (`baz``1`, `xyz`)"},

		{"t use index for group by (`foo``bar`) use index for order by (`baz``1`, `xyz`)", "`t` USE INDEX FOR GROUP BY (`foo``bar`) USE INDEX FOR ORDER BY (`baz``1`, `xyz`)"},
		{"t use index for group by (`foo``bar`) ignore key for order by (`baz``1`, `xyz`)", "`t` USE INDEX FOR GROUP BY (`foo``bar`) IGNORE INDEX FOR ORDER BY (`baz``1`, `xyz`)"},
		{"t use index for group by (`foo``bar`) ignore key for group by (`baz``1`, `xyz`)", "`t` USE INDEX FOR GROUP BY (`foo``bar`) IGNORE INDEX FOR GROUP BY (`baz``1`, `xyz`)"},
		{"t use index for order by (`foo``bar`) ignore key for group by (`baz``1`, `xyz`)", "`t` USE INDEX FOR ORDER BY (`foo``bar`) IGNORE INDEX FOR GROUP BY (`baz``1`, `xyz`)"},

		{"t tt use index for order by (`foo``bar`) ignore key for group by (`baz``1`, `xyz`)", "`t` AS `tt` USE INDEX FOR ORDER BY (`foo``bar`) IGNORE INDEX FOR GROUP BY (`baz``1`, `xyz`)"},
		{"t as tt use index for order by (`foo``bar`) ignore key for group by (`baz``1`, `xyz`)", "`t` AS `tt` USE INDEX FOR ORDER BY (`foo``bar`) IGNORE INDEX FOR GROUP BY (`baz``1`, `xyz`)"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).From.TableRefs.Left
	}
	runNodeRestoreTest(t, testCases, "SELECT * FROM %s", extractNodeFunc)
}

func TestLimitRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"limit 10", "LIMIT 10"},
		{"limit 10,20", "LIMIT 10,20"},
		{"limit 20 offset 10", "LIMIT 10,20"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Limit
	}
	runNodeRestoreTest(t, testCases, "SELECT 1 %s", extractNodeFunc)
}

func TestWildCardFieldRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"*", "*"},
		{"t.*", "`t`.*"},
		{"testdb.t.*", "`testdb`.`t`.*"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Fields.Fields[0].WildCard
	}
	runNodeRestoreTest(t, testCases, "SELECT %s", extractNodeFunc)
}

func TestSelectFieldRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"*", "*"},
		{"t.*", "`t`.*"},
		{"testdb.t.*", "`testdb`.`t`.*"},
		{"col as a", "`col` AS `a`"},
		{"col + 1 a", "`col`+1 AS `a`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Fields.Fields[0]
	}
	runNodeRestoreTest(t, testCases, "SELECT %s", extractNodeFunc)
}

func TestFieldListRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"*", "*"},
		{"t.*", "`t`.*"},
		{"testdb.t.*", "`testdb`.`t`.*"},
		{"col as a", "`col` AS `a`"},
		{"`t`.*, s.col as a", "`t`.*, `s`.`col` AS `a`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Fields
	}
	runNodeRestoreTest(t, testCases, "SELECT %s", extractNodeFunc)
}

func TestTableSourceRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"tbl", "`tbl`"},
		{"tbl as t", "`tbl` AS `t`"},
		{"(select * from tbl) as t", "(SELECT * FROM `tbl`) AS `t`"},
		{"(select * from a union select * from b) as t", "(SELECT * FROM `a` UNION SELECT * FROM `b`) AS `t`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).From.TableRefs.Left
	}
	runNodeRestoreTest(t, testCases, "select * from %s", extractNodeFunc)
}

func TestOnConditionRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"on t1.a=t2.a", "ON `t1`.`a`=`t2`.`a`"},
		{"on t1.a=t2.a and t1.b=t2.b", "ON `t1`.`a`=`t2`.`a` AND `t1`.`b`=`t2`.`b`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).From.TableRefs.On
	}
	runNodeRestoreTest(t, testCases, "select * from t1 join t2 %s", extractNodeFunc)
}

func TestJoinRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"t1 natural join t2", "`t1` NATURAL JOIN `t2`"},
		{"t1 natural left join t2", "`t1` NATURAL LEFT JOIN `t2`"},
		{"t1 natural right outer join t2", "`t1` NATURAL RIGHT JOIN `t2`"},
		{"t1 straight_join t2", "`t1` STRAIGHT_JOIN `t2`"},
		{"t1 straight_join t2 on t1.a>t2.a", "`t1` STRAIGHT_JOIN `t2` ON `t1`.`a`>`t2`.`a`"},
		{"t1 cross join t2", "`t1` JOIN `t2`"},
		{"t1 cross join t2 on t1.a>t2.a", "`t1` JOIN `t2` ON `t1`.`a`>`t2`.`a`"},
		{"t1 inner join t2 using (b)", "`t1` JOIN `t2` USING (`b`)"},
		{"t1 join t2 using (b,c) left join t3 on t1.a>t3.a", "(`t1` JOIN `t2` USING (`b`,`c`)) LEFT JOIN `t3` ON `t1`.`a`>`t3`.`a`"},
		{"t1 natural join t2 right outer join t3 using (b,c)", "(`t1` NATURAL JOIN `t2`) RIGHT JOIN `t3` USING (`b`,`c`)"},
		{"t1, t2", "(`t1`) JOIN `t2`"},
		{"t1, t2, t3", "((`t1`) JOIN `t2`) JOIN `t3`"},
		{"(select * from t) t1, (t2, t3)", "(SELECT * FROM `t`) AS `t1`, ((`t2`) JOIN `t3`)"},
		{"(select * from t) t1, t2", "(SELECT * FROM `t`) AS `t1`, `t2`"},
		{"(select * from (select a from t1) tb1) tb;", "(SELECT * FROM (SELECT `a` FROM `t1`) AS `tb1`) AS `tb`"},
		{"(select * from t) t1 cross join t2", "(SELECT * FROM `t`) AS `t1` JOIN `t2`"},
		{"(select * from t) t1 natural join t2", "(SELECT * FROM `t`) AS `t1` NATURAL JOIN `t2`"},
		{"(select * from t) t1 cross join t2 on t1.a>t2.a", "(SELECT * FROM `t`) AS `t1` JOIN `t2` ON `t1`.`a`>`t2`.`a`"},
		{"(select * from t union select * from t1) tb1, t2;", "(SELECT * FROM `t` UNION SELECT * FROM `t1`) AS `tb1`, `t2`"},
		{"(select a from t) t1 join t t2, t3;", "((SELECT `a` FROM `t`) AS `t1` JOIN `t` AS `t2`) JOIN `t3`"},
	}
	testChangedCases := []NodeRestoreTestCase{
		{"(a al left join b bl on al.a1 > bl.b1) join (a ar right join b br on ar.a1 > br.b1)", "(`a` AS `al` LEFT JOIN `b` AS `bl` ON `al`.`a1`>`bl`.`b1`) JOIN (`a` AS `ar` RIGHT JOIN `b` AS `br` ON `ar`.`a1`>`br`.`b1`)"},
		{"a al left join b bl on al.a1 > bl.b1, a ar right join b br on ar.a1 > br.b1", "(`a` AS `al` LEFT JOIN `b` AS `bl` ON `al`.`a1`>`bl`.`b1`) JOIN (`a` AS `ar` RIGHT JOIN `b` AS `br` ON `ar`.`a1`>`br`.`b1`)"},
		{"t1 join (t2 right join t3 on t2.a > t3.a join (t4 right join t5 on t4.a > t5.a))", "`t1` JOIN ((`t2` RIGHT JOIN `t3` ON `t2`.`a`>`t3`.`a`) JOIN (`t4` RIGHT JOIN `t5` ON `t4`.`a`>`t5`.`a`))"},
		{"t1 join t2 right join t3 on t2.a=t3.a", "(`t1` JOIN `t2`) RIGHT JOIN `t3` ON `t2`.`a`=`t3`.`a`"},
		{"t1 join (t2 right join t3 on t2.a=t3.a)", "`t1` JOIN (`t2` RIGHT JOIN `t3` ON `t2`.`a`=`t3`.`a`)"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).From.TableRefs
	}
	runNodeRestoreTest(t, testCases, "select * from %s", extractNodeFunc)
	runNodeRestoreTestWithFlagsStmtChange(t, testChangedCases, "select * from %s", extractNodeFunc, format.DefaultRestoreFlags)
}

func TestTableRefsClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"t", "`t`"},
		{"t1 join t2", "`t1` JOIN `t2`"},
		{"t1, t2", "(`t1`) JOIN `t2`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).From
	}
	runNodeRestoreTest(t, testCases, "select * from %s", extractNodeFunc)
}

func TestDeleteTableListRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"t1,t2", "`t1`,`t2`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*DeleteStmt).Tables
	}
	runNodeRestoreTest(t, testCases, "DELETE %s FROM t1, t2;", extractNodeFunc)
	runNodeRestoreTest(t, testCases, "DELETE FROM %s USING t1, t2;", extractNodeFunc)
}

func TestDeleteTableIndexHintRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"DELETE FROM t1 USE key (`fld1`) WHERE fld=1",
			"DELETE FROM `t1` USE INDEX (`fld1`) WHERE `fld`=1"},
		{"DELETE FROM t1 as tbl USE key (`fld1`) WHERE tbl.fld=2",
			"DELETE FROM `t1` AS `tbl` USE INDEX (`fld1`) WHERE `tbl`.`fld`=2"},
	}

	extractNodeFunc := func(node Node) Node {
		return node.(*DeleteStmt)
	}
	runNodeRestoreTest(t, testCases, "%s", extractNodeFunc)
}

func TestByItemRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"a", "`a`"},
		{"a desc", "`a` DESC"},
		{"NULL", "NULL"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).OrderBy.Items[0]
	}
	runNodeRestoreTest(t, testCases, "select * from t order by %s", extractNodeFunc)
}

func TestGroupByClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"GROUP BY a,b desc", "GROUP BY `a`,`b` DESC"},
		{"GROUP BY 1 desc,b", "GROUP BY 1 DESC,`b`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).GroupBy
	}
	runNodeRestoreTest(t, testCases, "select * from t %s", extractNodeFunc)
}

func TestOrderByClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"ORDER BY a", "ORDER BY `a`"},
		{"ORDER BY a,b", "ORDER BY `a`,`b`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).OrderBy
	}
	runNodeRestoreTest(t, testCases, "SELECT 1 FROM t1 %s", extractNodeFunc)

	extractNodeFromSetOprStmtFunc := func(node Node) Node {
		return node.(*SetOprStmt).OrderBy
	}
	runNodeRestoreTest(t, testCases, "SELECT 1 FROM t1 UNION SELECT 2 FROM t2 %s", extractNodeFromSetOprStmtFunc)
}

func TestAssignmentRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"a=1", "`a`=1"},
		{"b=1+2", "`b`=1+2"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*UpdateStmt).List[0]
	}
	runNodeRestoreTest(t, testCases, "UPDATE t1 SET %s", extractNodeFunc)
}

func TestHavingClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"HAVING a", "HAVING `a`"},
		{"HAVING NULL", "HAVING NULL"},
		{"HAVING a>b", "HAVING `a`>`b`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Having
	}
	runNodeRestoreTest(t, testCases, "select 1 from t1 group by 1 %s", extractNodeFunc)
}

func TestFrameBoundRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"CURRENT ROW", "CURRENT ROW"},
		{"UNBOUNDED PRECEDING", "UNBOUNDED PRECEDING"},
		{"1 PRECEDING", "1 PRECEDING"},
		{"? PRECEDING", "? PRECEDING"},
		{"INTERVAL 5 DAY PRECEDING", "INTERVAL 5 DAY PRECEDING"},
		{"UNBOUNDED FOLLOWING", "UNBOUNDED FOLLOWING"},
		{"1 FOLLOWING", "1 FOLLOWING"},
		{"? FOLLOWING", "? FOLLOWING"},
		{"INTERVAL '2:30' MINUTE_SECOND FOLLOWING", "INTERVAL _UTF8MB4'2:30' MINUTE_SECOND FOLLOWING"},
	}
	extractNodeFunc := func(node Node) Node {
		return &node.(*SelectStmt).Fields.Fields[0].Expr.(*WindowFuncExpr).Spec.Frame.Extent.Start
	}
	runNodeRestoreTest(t, testCases, "select avg(val) over (rows between %s and current row) from t", extractNodeFunc)
}

func TestFrameClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"ROWS CURRENT ROW", "ROWS BETWEEN CURRENT ROW AND CURRENT ROW"},
		{"ROWS UNBOUNDED PRECEDING", "ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW"},
		{"ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING", "ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING"},
		{"RANGE BETWEEN ? PRECEDING AND ? FOLLOWING", "RANGE BETWEEN ? PRECEDING AND ? FOLLOWING"},
		{"RANGE BETWEEN INTERVAL 5 DAY PRECEDING AND INTERVAL '2:30' MINUTE_SECOND FOLLOWING", "RANGE BETWEEN INTERVAL 5 DAY PRECEDING AND INTERVAL _UTF8MB4'2:30' MINUTE_SECOND FOLLOWING"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Fields.Fields[0].Expr.(*WindowFuncExpr).Spec.Frame
	}
	runNodeRestoreTest(t, testCases, "select avg(val) over (%s) from t", extractNodeFunc)
}

func TestPartitionByClauseRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"PARTITION BY a", "PARTITION BY `a`"},
		{"PARTITION BY NULL", "PARTITION BY NULL"},
		{"PARTITION BY a, b", "PARTITION BY `a`, `b`"},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*SelectStmt).Fields.Fields[0].Expr.(*WindowFuncExpr).Spec.PartitionBy
	}
	runNodeRestoreTest(t, testCases, "select avg(val) over (%s rows current row) from t", extractNodeFunc)
}

func TestWindowSpecRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{"w as ()", "`w` AS ()"},
		{"w as (w1)", "`w` AS (`w1`)"},
		{"w as (w1 order by country)", "`w` AS (`w1` ORDER BY `country`)"},
		{"w as (partition by a order by b rows current row)", "`w` AS (PARTITION BY `a` ORDER BY `b` ROWS BETWEEN CURRENT ROW AND CURRENT ROW)"},
	}
	extractNodeFunc := func(node Node) Node {
		return &node.(*SelectStmt).WindowSpecs[0]
	}
	runNodeRestoreTest(t, testCases, "select rank() over w from t window %s", extractNodeFunc)

	testCases = []NodeRestoreTestCase{
		{"w", "`w`"},
		{"()", "()"},
		{"(w)", "(`w`)"},
		{"(w PARTITION BY country)", "(`w` PARTITION BY `country`)"},
		{"(PARTITION BY a ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING)", "(PARTITION BY `a` ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING)"},
	}
	extractNodeFunc = func(node Node) Node {
		return &node.(*SelectStmt).Fields.Fields[0].Expr.(*WindowFuncExpr).Spec
	}
	runNodeRestoreTest(t, testCases, "select rank() over %s from t window w as (order by a)", extractNodeFunc)
}

func TestLoadDataRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{
			sourceSQL: "load data low_priority infile '/a.csv' into table `t`",
			expectSQL: "LOAD DATA LOW_PRIORITY INFILE '/a.csv' INTO TABLE `t`",
		},
		{
			sourceSQL: "load data infile '/a.csv' format 'sql file' into table `t`",
			expectSQL: "LOAD DATA INFILE '/a.csv' FORMAT 'sql file' INTO TABLE `t`",
		},
		{
			sourceSQL: "load data infile '/a.csv' format 'sql file' into table `t` character set utf8mb4",
			expectSQL: "LOAD DATA INFILE '/a.csv' FORMAT 'sql file' INTO TABLE `t` CHARACTER SET utf8mb4",
		},
		{
			sourceSQL: "load data infile '/a.csv' format 'sql file' into table `t` character set gbk",
			expectSQL: "LOAD DATA INFILE '/a.csv' FORMAT 'sql file' INTO TABLE `t` CHARACTER SET gbk",
		},
		// ignore N lines
		{
			sourceSQL: "load data infile '/a.csv' into table `t` ignore 0 lines",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` IGNORE 0 LINES",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` ignore 11 lines",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` IGNORE 11 LINES",
		},
		// fields
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields terminated by 'a\\t'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS TERMINATED BY 'a\t'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` FIELDS OPTIONALLY ENCLOSED BY 'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS OPTIONALLY ENCLOSED BY 'a'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields enclosed by 'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS ENCLOSED BY 'a'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields escaped by 'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS ESCAPED BY 'a'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields defined null by 'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS DEFINED NULL BY 'a'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields defined null by 'a' optionally enclosed",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS DEFINED NULL BY 'a' OPTIONALLY ENCLOSED",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields defined null by 'a' optionally enclosed  optionally  enclosed  by  'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS OPTIONALLY ENCLOSED BY 'a' DEFINED NULL BY 'a' OPTIONALLY ENCLOSED",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` fields optionally  enclosed  by  'a'  defined null by 'a' optionally enclosed",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` FIELDS OPTIONALLY ENCLOSED BY 'a' DEFINED NULL BY 'a' OPTIONALLY ENCLOSED",
		},
		// lines
		{
			sourceSQL: "load data infile '/a.csv' into table `t` lines starting by 'a'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` LINES STARTING BY 'a'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` lines terminated by '\\n'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` LINES TERMINATED BY '\n'",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` lines starting by 'a' terminated by '\\n'",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` LINES STARTING BY 'a' TERMINATED BY '\n'",
		},
		// with options
		{
			sourceSQL: "load data infile '/a.csv' into table `t` with detached",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` WITH detached",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` with batch_size=999,detached",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` WITH batch_size=999, detached",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` with detached, batch_size=999",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` WITH detached, batch_size=999",
		},
		{
			sourceSQL: "load data infile '/a.csv' into table `t` with detached, thread=-100, batch_size=999",
			expectSQL: "LOAD DATA INFILE '/a.csv' INTO TABLE `t` WITH detached, thread=-100, batch_size=999",
		},
		{
			sourceSQL: "load data infile '/a.csv' format 'sql' into table `t` with detached, batch_size=999",
			expectSQL: "LOAD DATA INFILE '/a.csv' FORMAT 'sql' INTO TABLE `t` WITH detached, batch_size=999",
		},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*LoadDataStmt)
	}
	runNodeRestoreTest(t, testCases, "%s", extractNodeFunc)
}

func TestImportActions(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{
			sourceSQL: "cancel import job 123",
			expectSQL: "CANCEL IMPORT JOB 123",
		},
		{
			sourceSQL: "show import jobs",
			expectSQL: "SHOW IMPORT JOBS",
		},
		{
			sourceSQL: "show import job 123",
			expectSQL: "SHOW IMPORT JOB 123",
		},
		{
			sourceSQL: "show import jobs where aa > 1",
			expectSQL: "SHOW IMPORT JOBS WHERE `aa`>1",
		},
		{
			sourceSQL: "show import groups",
			expectSQL: "SHOW IMPORT GROUPS",
		},
		{
			sourceSQL: "show import group '123'",
			expectSQL: "SHOW IMPORT GROUP '123'",
		},
	}
	extractNodeFunc := func(node Node) Node {
		return node
	}
	runNodeRestoreTest(t, testCases, "%s", extractNodeFunc)
}

func TestImportIntoRestore(t *testing.T) {
	testCases := []NodeRestoreTestCase{
		{
			sourceSQL: "IMPORT INTO t from '/file.csv'",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv'",
		},
		{
			sourceSQL: "IMPORT INTO t (a, @1, c) from '/file.csv'",
			expectSQL: "IMPORT INTO `t` (`a`,@`1`,`c`) FROM '/file.csv'",
		},
		{
			sourceSQL: "IMPORT INTO t set a=100 from '/file.csv'",
			expectSQL: "IMPORT INTO `t` SET `a`=100 FROM '/file.csv'",
		},
		{
			sourceSQL: "IMPORT INTO t (b, c) set a=100 from '/file.csv'",
			expectSQL: "IMPORT INTO `t` (`b`,`c`) SET `a`=100 FROM '/file.csv'",
		},
		{
			sourceSQL: "IMPORT INTO t from '/file.csv' format 'csv'",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv' FORMAT 'csv'",
		},
		{
			sourceSQL: "IMPORT INTO `t` from '/file.csv' with detached",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv' WITH detached",
		},
		{
			sourceSQL: "IMPORT INTO `t` from '/file.csv' with detached, thread=1",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv' WITH detached, thread=1",
		},
		{
			// if we don't include _UTF8MB4, when comparing Stmt object, the token position will be different
			sourceSQL: "IMPORT INTO `t` from '/file.csv' with fields_terminated_by=_UTF8MB4'\t', detached",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv' WITH fields_terminated_by=_UTF8MB4'\t', detached",
		},
		{
			sourceSQL: "IMPORT INTO `t` from '/file.csv' with fields_terminated_by=_UTF8MB4'\t', detached, thread=1",
			expectSQL: "IMPORT INTO `t` FROM '/file.csv' WITH fields_terminated_by=_UTF8MB4'\t', detached, thread=1",
		},
		{
			// SelectStmt
			sourceSQL: "IMPORT INTO `t` from select * from xx",
			expectSQL: "IMPORT INTO `t` FROM SELECT * FROM `xx`",
		},
		{
			// SelectStmtWithClause
			sourceSQL: "IMPORT INTO `t` from with `c` as (select * from `xx`) select * from `c` with thread=1",
			expectSQL: "IMPORT INTO `t` FROM WITH `c` AS (SELECT * FROM `xx`) SELECT * FROM `c` WITH thread=1",
		},
		{
			// SetOprStmt
			sourceSQL: "IMPORT INTO `t` from select * from `xx` union select * from `yy` with thread=1",
			expectSQL: "IMPORT INTO `t` FROM SELECT * FROM `xx` UNION SELECT * FROM `yy` WITH thread=1",
		},
		{
			// SetOprStmt
			sourceSQL: "IMPORT INTO `t` from with `c` as (select * from `xx`) select * from `c` union select * from `c` with thread=1",
			expectSQL: "IMPORT INTO `t` FROM WITH `c` AS (SELECT * FROM `xx`) SELECT * FROM `c` UNION SELECT * FROM `c` WITH thread=1",
		},
		{
			// SubSelect
			sourceSQL: "IMPORT INTO `t` from (select * from xx)",
			expectSQL: "IMPORT INTO `t` FROM (SELECT * FROM `xx`)",
		},
	}
	extractNodeFunc := func(node Node) Node {
		return node.(*ImportIntoStmt)
	}
	runNodeRestoreTest(t, testCases, "%s", extractNodeFunc)
}

func TestFulltextSearchModifier(t *testing.T) {
	require.False(t, FulltextSearchModifier(FulltextSearchModifierNaturalLanguageMode).IsBooleanMode())
	require.True(t, FulltextSearchModifier(FulltextSearchModifierNaturalLanguageMode).IsNaturalLanguageMode())
	require.False(t, FulltextSearchModifier(FulltextSearchModifierNaturalLanguageMode).WithQueryExpansion())
}

func TestImportIntoSecureText(t *testing.T) {
	testCases := []struct {
		input   string
		secured string
	}{
		{
			input:   "import into t from 's3://bucket/prefix?access-key=aaaaa&secret-access-key=bbbbb'",
			secured: `^IMPORT INTO .t. FROM \Q's3://bucket/prefix?\E((access-key=xxxxxx|secret-access-key=xxxxxx)(&|'$)){2}`,
		},
		{
			input:   "import into t from 'gcs://bucket/prefix?access-key=aaaaa&secret-access-key=bbbbb'",
			secured: "\\QIMPORT INTO `t` FROM 'gcs://bucket/prefix?access-key=aaaaa&secret-access-key=bbbbb'\\E",
		},
		{
			input:   "import into t from 's3://bucket/prefix?access-key=aaaaa&secret-access-key=bbbbb' with CLOUD_STORAGE_uri='s3://bucket/prefix?access-key=cccccc&secret-access-key=dddddd'",
			secured: `^IMPORT INTO .t. FROM \Q's3://bucket/prefix?\E((access-key=xxxxxx|secret-access-key=xxxxxx)(&|')){2} WITH cloud_storage_uri=\Q's3://bucket/prefix?\E((access-key=xxxxxx|secret-access-key=xxxxxx)(&|')){2}`,
		},
	}

	p := parser.New()
	for _, tc := range testCases {
		comment := fmt.Sprintf("input = %s", tc.input)
		node, err := p.ParseOneStmt(tc.input, "", "")
		require.NoError(t, err, comment)
		n, ok := node.(SensitiveStmtNode)
		require.True(t, ok, comment)
		require.Regexp(t, tc.secured, n.SecureText(), comment)
	}
}

func TestImportIntoFromSelectInvalidStmt(t *testing.T) {
	p := parser.New()
	_, err := p.ParseOneStmt("IMPORT INTO t1(a, @1) FROM select * from t2;", "", "")
	require.ErrorContains(t, err, "Cannot use user variable(1) in IMPORT INTO FROM SELECT statement")
	_, err = p.ParseOneStmt("IMPORT INTO t1(a, @b) FROM select * from t2;", "", "")
	require.ErrorContains(t, err, "Cannot use user variable(b) in IMPORT INTO FROM SELECT statement")
	_, err = p.ParseOneStmt("IMPORT INTO t1(a) set a=1 FROM select a from t2;", "", "")
	require.ErrorContains(t, err, "Cannot use SET clause in IMPORT INTO FROM SELECT statement.")
}
